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Query: UNIPROT:P06889 (Mol)
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tRNA species in Escherichia coli that translate codons starting with U contain 2-methyl-thio-N6-isopentenyl-adenosine in position 37, 3' adjacent to the anticodon. The role of this hypermodification in protein synthesis and trp operon attenuation has been investigated. Temperature-jump relaxation methods have been applied to study the interaction between E. coli tRNAPro, with anticodon VGG (V is uridine-5-oxyacetic acid) complementary to that of tRNATrp, and three species of E. coli tRNATrp: wild type tRNATrp (with ms2i6A37 and G24), UGA suppressor tRNATrp (with ms2i6A37 and A24 in the dihydrouridine stem but the same anticodon CCA), and the same suppressor molecule but ms2i6A-deficient as a result of the mutation miaA. Complex formation between tRNAPro and ms2i6A-containing tRNATrp shows thermodynamic parameters close to those found for several other pairs of tRNA with complementary anticodons. However, ms2i6A-deficient tRNATrp makes less stable complexes with tRNAPro, which dissociate eightfold faster. No effect on the complementary anticodon interaction of the mutation in the dihydrouridine stem can be detected. When the tRNA analogous to the opal codon, E. coli tRNASerIV (anticodon VGA) replaces tRNAPro in similar experiments, very weak complexes are observed with both normally hypermodified species of tRNATrp, the wild type and UGA suppressor; these show a lifetime about 50-fold shorter than with tRNAPro, but are again similar. No complex formation is detectable with the ms2i6A-deficient species. This may explain why the hypermodification is necessary for the efficient suppression of the UGA terminator of Q beta coat protein in vitro. The data on complexes with tRNAPro suggest that deficiency in ms2i6A may also reduce the efficiency of UGG reading. Thus, miaA may affect trp operon attenuation by slowing translation of the tandem UGG codons in the leader sequence. Temperature-jump differential spectra suggest that ms2i6 stabilizes the anticodon interaction by improved stacking of base 37.
J Mol Biol 1984 Aug 05
PMID:The effect of point mutations affecting Escherichia coli tryptophan tRNA on anticodon-anticodon interactions and on UGA suppression. 637 98

A spontaneous mutant was isolated that harbors a weak suppressing activity towards a UAG mutation, together with an inability to grow at 43 degrees C in rich medium. The mutation is shown to be associated with an increased misreading of UAG at certain codon contexts and UAA. UGA, missense or frameshift mutations do not appear to be misread to a similar extent. The mutation gives an increased efficiency to several amber tRNA suppressors without increasing their ambiguity towards UAA. The ochre suppressors SuB and Su5 are stimulated in their reading of both UAG and UAA with preference for UAG. An opal suppressor is not affected. The effect of the mutation on the efficiency of amber and ochre suppressors is dependent on the codon context of the nonsense codon. The mutated gene (uar) has been mapped and found to be recessive both with respect to suppressor-enhancing ability as well as for temperature sensitivity. The phenotype is partly suppressed by the ochre suppressor SuC. It is suggested that uar codes for a protein, which is involved in translational termination at UAG and UAA stop codons.
Mol Gen Genet 1984
PMID:A temperature-sensitive mutant of Escherichia coli that shows enhanced misreading of UAG/A and increased efficiency for some tRNA nonsense suppressors. 641 24

Rates of glucuronidation were measured at high substrate concentrations in specific zones of the liver lobule using micro-light guides placed on periportal and pericentral regions on the surface of livers from phenobarbital-treated rats. Livers were perfused with sulfate-free buffer under normoxic conditions, and fluorescence of free 7-hydroxycoumarin was monitored in the tissue. The formation of nonfluorescent 7-hydroxycoumarin glucuronide was then inhibited completely by perfusion with N2-saturated perfusate containing 20 mM ethanol. Under these conditions, fluorescence recorded from the surface of the liver was directly proportional to the concentration of substrate infused. The difference in 7-hydroxycoumarin fluorescence between N2 plus ethanol and normoxic perfusion was due to glucuronidation. Maximal rates of glucuronidation in periportal and pericentral regions of the liver lobule calculated with this new method were 9.6 and 35 mumoles/g/hr, respectively. Glucuronidation was half-maximal with 25-50 microM 7-hydroxycoumarin in both regions. Glucuronosyltransferase activity assayed in microdissected, freeze-dried tissue samples in vitro was 3-fold greater in pericentral areas than in periportal areas. This activity was half-maximal with 0.2 mM UDP-glucuronic acid and 54 microM 7-hydroxycoumarin in both regions of the liver lobule. Thus, the maximal capacity of the glucuronidation system determined in vitro is about 3-fold greater in pericentral than in periportal regions of the liver lobule, a difference which correlates well with measured rates of glucuronidation of 7-hydroxycoumarin in the two zones of the lobule in the intact, perfused liver.
Mol Pharmacol 1984 May
PMID:Glucuronidation of 7-hydroxycoumarin in periportal and pericentral regions of the liver lobule. 642

The polyamines spermidine and spermine stimulate the readthrough of the UGA termination codon of rabbit beta-globin mRNA when it is translated in a rabbit reticulocyte cell-free system. The other major polyamine, putrescine, does not show this effect. The polyamine induced readthrough is specific for UGA as the UAA termination codon of alpha-globin mRNA is not read through and general translational misreading errors are not occurring in the presence of spermidine or spermine. The probable mechanism of this effect and some possible regulatory implications are discussed.
Mol Gen Genet 1983
PMID:Polyamines enhance readthrough of the UGA termination codon in a mammalian messenger RNA. 657 22

We asked if UGA suppression by charged tRNATrp, a process called UGA readthrough, is involved in the mechanism of attenuation of the tryptophan (trp) operon in Escherichia coli. For this purpose we used two mutations: strA(LD1) which causes restriction of UGA readthrough, and revA which partially overcomes the restriction of UGA readthrough caused by strA(LD1)(Engelberg-Kulka et al. 1982). trp attenuation was monitored by the regulation of the synthesis of the trp operon enzyme anthranilate synthetase (ASase) in trpR strains. We showed that the strA(LD1) mutation causes a significant increase in the level of synthesis of ASase in the presence of an excess of tryptophan, while the revA mutation reverses this effect, indicating that transcription termination at the trp attenuator site is relieved by restriction of UGA readthrough. Based on our results and the sequence data of the trp leader RNA of E. coli (Oxender et al. 1979), we offer a model for the involvement of the UGA readthrough process in trp attenuation. We suggest that the UGA readthrough process permits trp attenuation to respond to slight changes in the cellular concentration of charged tRNATrp.
Mol Gen Genet 1982
PMID:Studies on the involvement of the UGA readthrough process in the mechanism of attenuation of the tryptophan operon of Escherichia coli. 675 72

The gene encoding the efficient UGA suppressor sup3-e of Schizosaccharomyces pombe was isolated by in vivo transformation of Saccharomyces cerevisiae UGA mutants with S. pombe sup3-e DNA. DNA from a clone bank of EcoRI fragments from a S. pombe sup3-e strain in the hybrid yeast vector YRp17 was used to transform the S. cerevisiae multiple auxotroph his4-260 leu2-2 trp1-1 to prototrophy. Transformants were isolated at a low frequency; they lost the ability to grow in minimal medium after passaging in non-selective media. This suggested the presence of the suppressor gene on the non-integrative plasmid. Plasmid DNA, isolated from the transformed S. cerevisiae cells and subsequently amplified in E. coli, transformed S. cerevisiae his4-260 leu2-2 trp1-1 to prototrophy. In this way a 2.4 kb S. pombe DNA fragment carrying the sup3-e gene was isolated. Sequence analysis revealed the presence of two tRNA coding regions separated by a spacer of only seven nucleotides. The sup3-e tRNASerUGA tRNA gene is followed by a sequence coding for the initiator tRNAMet. The transformation results demonstrate that the cloned S. pombe UGA suppressor is active in S. cerevisiae UGA mutant strains.
Mol Gen Genet 1982
PMID:Nonsense suppression in Schizosaccharomyces pombe: the S. pombe Sup3-e tRNASerUGA gene is active in S. cerevisiae. 681 25

A certain proportion of protein S7 exists in an altered form in E. coli rpsD (S4) mutants. Depending on the type of S4 mutation involved, two different forms of the altered S7 can be distinguished. The unusual form is longer than normal S7 by about 500 daltons due to extra material at the carboxyl end of the protein. It is suggested that a mutationally altered S4 might lower the efficiency of termination during translation of the messenger for S7. This results in an increased frequency of translational read-through, which gives the observed longer forms of S7. Data are interpreted to mean that one class of S4 mutants might suppress UGA and UAG whereas another class only suppresses UGA.
Mol Gen Genet 1980 Feb
PMID:Analysis of rpsD mutations in Escherichia coli. IV. Accumulation of minor forms of protein S7(K) in ribosomes of rpsD mutant strains due to translational read-through. 699 Feb 4

CRM+ nonsense mutations, as described for E. coli K12 lacZ, in theory permit determination of the direction of transcription of an isolated gene. In the hope of utilising this approach to confirm that the E gene of the E. coli K12 argECBH cluster is transcribed in the opposite direction from the CBH unit, 30 argE mutations were investigated immunologically and genetically. Only three, E1, E25 and E26 (which map close together towards the left-hand end of the gene), were found to be CRM+. Co-suppression of each argE mutation with known strongly polar lacZ amber, ochre and UGA mutations was looked for to distinguish missfense from nonsense argE's, Arg+ revertants being screened for Lac+ and Mel+ phenotypes. Of 16 mutations not hitherto characterised as nonsense, frameshift or large deletions, only three, E1, E25 and E26, appeared to be missense. Three of the nonsense mutations were also streptomycin suppressible. It appears, therefore, that among argE mutants so far studied the correlation between CRM+ and missense is complete, so that the projected method for determining the direction of transcription of argE could not be applied.
Mol Gen Genet 1980
PMID:Immunological and genetic properties of Escherichia coli K12 argE mutants. 700 11

Globin mRNA, translated in a Saccharomyces cerevisiae cell-free protein synthesizing system prepared from a [psi+ rho+] strain, primarily directed the synthesis of alpha- and beta-globin. A third globin mRNA-specific polypeptide was also synthesized, representing approximately 10% of the total translation products. This polypeptide (beta') was synthesized by translational read-through of the beta- globin mRNA UGA terminator and was mediated primarily by an endogenous tRNA coded for by the mitochondria. This mitochondrial tRNA, when charged, could be preferentially bound, in high salt, to benzoylated DEAE-cellulose, a characteristic of a tRNATrp. The synthesis of beta- mediated by this mitochondrial tRNATrp was significantly reduced when the translation system was prepared from an isogenic [psi-] strain. Evidence for a nuclear-coded tRNA, also able to suppress the beta-globin mRNA UGA terminator in [psi+] but not [psi-] lysates, was also obtained. The presence of these endogenous UGA suppressor activities in the yeast cell-free system should allow successful in vitro translation of mitochondrial mRNAs.
Mol Cell Biol 1982 May
PMID:Endogenous read-through of a UGA termination codon in a Saccharomyces cerevisiae cell-free system: evidence for involvement of both a mitochondrial and a nuclear tRNA. 705 Jun 74

A genomic library was constructed from a HindIII digest of Azospirillum lipoferum chromosomal DNA in the HindIII site of pUC19. From the library, a clone, pALH64, which showed strong hybridization with 3' end labeled A. lipoferum total tRNAs and which contains a 2.9 kb insert was isolated and restriction map of the insert established. The nucleotide sequence of a 490 bp HindIII-HincII subfragment containing a cluster of genes coding for 5S rRNA, tRNA(Val)(UAC), tRNA(Thr)(UGA) and tRNA(Lys)(UUU) has been determined. The gene organization is 5S rRNA (115 bp), spacer (10 bp), tRNA(Val) (76 bp), spacer (3 bp), tRNA(Thr) (76 bp), spacer (7 bp) and tRNA(Lys) (76 bp). Hybridization experiments using A. lipoferum total tRNAs and 5S rRNA with the cloned DNA probes revealed that all three tRNA genes and the 5S rRNA gene are expressed in vivo in the bacterial cells.
Biochem Mol Biol Int 1994 Jul
PMID:Cloning and characterization of a cluster of genes coding for 5S rRNA and three tRNAs from Azospirillum lipoferum. 752 23

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